Flexible palladium-based H<sub>2</sub> sensors have a great potential in advanced sensing applications, as they offer advantages such as light weight, space conservation, and mechanical durability. Despite these advantages, the paucity of such sensors is due to the fact that they are difficult to fabricate while maintaining excellent sensing performance. Here, we demonstrate, using direct nanoimprint lithography of palladium, the fabrication of a flexible, durable, and fast responsive H<sub>2</sub> sensor that is capable of detecting H<sub>2</sub> gas concentration as low as 50 ppm. High resolution and high throughput patterning of palladium gratings over a 2 cm × 1 cm area on a rigid substrate was achieved by heat-treating nanoimprint...
International audienceAlong with the development of hydrogen as a sustainable energy carrier, it is ...
In this study, we developed a hydrogen sensor based on a palladium microfiber network on a paper sub...
This paper reports a novel hydrogen sensor based on an array of single suspended carbon nanowires (?...
The development of low-cost and high performing hydrogen gas sensors is important across many sector...
The widespread use of H<sub>2</sub> gas as an energy carrier will necessitate the development of ine...
In this work, palladium (Pd) thin films were prepared via RF sputtering method with various thickne...
Alongside the rise in fully automated equipment and wearable devices, there is currently a high dema...
Hydrogen (H2), as a chemical energy carrier, is a cleaner alternative to conventional fossil fuels w...
We report the development and testing of a novel hydrogen sensor that shows a very peculiar response...
High-performance and low-power flexible Schottky diode-based hydrogen sensor was developed. The sens...
Cost-effective, simple and flexible hydrogen gas sensors operating at room temperature were demonstr...
Plasmonic hydrogen gas sensors have become widely used in recent years due to their low cost, reliab...
We report a flexible hydrogen sensing platform based on a single-strand yarn consisting of high-dens...
This study proposes a reliable and self-powered hydrogen (H-2) gas sensor composed of a chemo-mechan...
We present a highly sensitive H2 sensor based on a single Pd-functionalized carbon nanowire suspende...
International audienceAlong with the development of hydrogen as a sustainable energy carrier, it is ...
In this study, we developed a hydrogen sensor based on a palladium microfiber network on a paper sub...
This paper reports a novel hydrogen sensor based on an array of single suspended carbon nanowires (?...
The development of low-cost and high performing hydrogen gas sensors is important across many sector...
The widespread use of H<sub>2</sub> gas as an energy carrier will necessitate the development of ine...
In this work, palladium (Pd) thin films were prepared via RF sputtering method with various thickne...
Alongside the rise in fully automated equipment and wearable devices, there is currently a high dema...
Hydrogen (H2), as a chemical energy carrier, is a cleaner alternative to conventional fossil fuels w...
We report the development and testing of a novel hydrogen sensor that shows a very peculiar response...
High-performance and low-power flexible Schottky diode-based hydrogen sensor was developed. The sens...
Cost-effective, simple and flexible hydrogen gas sensors operating at room temperature were demonstr...
Plasmonic hydrogen gas sensors have become widely used in recent years due to their low cost, reliab...
We report a flexible hydrogen sensing platform based on a single-strand yarn consisting of high-dens...
This study proposes a reliable and self-powered hydrogen (H-2) gas sensor composed of a chemo-mechan...
We present a highly sensitive H2 sensor based on a single Pd-functionalized carbon nanowire suspende...
International audienceAlong with the development of hydrogen as a sustainable energy carrier, it is ...
In this study, we developed a hydrogen sensor based on a palladium microfiber network on a paper sub...
This paper reports a novel hydrogen sensor based on an array of single suspended carbon nanowires (?...